prof. d. wilton ece dept. notes 16 ece 2317 applied electricity and magnetism notes prepared by the...
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Prof. D. WiltonECE Dept.
Notes 16
ECE 2317 ECE 2317 Applied Electricity and MagnetismApplied Electricity and Magnetism
Notes prepared by the EM group,
University of Houston.
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Curl of a VectorCurl of a Vector
0
0
0
1curl lim
1curl lim
1curl lim
x
y
z
CS
CS
CS
x V V drS
y V V drS
z V V drS
, , arbitrary vector functionV x y z
curl vector functionV
x
y
z
Cx
Cy
Cz
S
S
S
Note: Paths are defined according to the “right-hand rule”
, , , ,Cx y z x y z
V drV C
circulationof on
curl,
x Vx
circulation per unit area about etc.
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Curl of a Vector (cont.)Curl of a Vector (cont.)
“curl meter” ˆ ˆ ˆ , ,x y z
curl velocityof rotation (in the sense indicated)V
Assume that V represents the velocity of a fluid.
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Curl CalculationCurl Calculation
y
z
y
Path Cx :
z 1 2
3
4 Cx
0, , 02
0, , 02
0, 0,2
0, 0,2
x xx y z zC C
z
y
y
yV dr V dx V dy V dz V z
yV z
zV y
zV y
(side 1)
(side 2)
(side 3)
(side 4)
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0, , 0 0, , 02 2
0, 0, 0, 0,2 2
x
x
z z
C
y y
yz
yz
C
y yV V
V dr y zy
z zV V
z yz
VVS S
y z
VVV dr S
y z
Curl Calculation (cont.)Curl Calculation (cont.)
Though above calculation is for a path about the origin, just add (x,y,z) to all arguments above to obtain the same result for a path about any point (x,y,z) .
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x
yz
C
VVV dr S
y z
0
1curl lim
xCsx V V dr
S
curl yzVV
x Vy z
From the curl definition:
Hence
Curl Calculation (cont.)Curl Calculation (cont.)
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Similarly,
y
z
x z
C
y x
C
V VV dr S
z x
V VV dr S
x y
curl y yx xz zV VV VV V
V x y zy z z x x y
Hence,
curl x zV Vy V
z x
curl y xV V
z Vx y
Curl Calculation (cont.)Curl Calculation (cont.)
Note the cyclic nature of the three terms:
x
y z
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Del OperatorDel Operator
x y z
x y z
y yx xz z
V x y z xV yV zVx y z
x y z
x y z
V V V
V VV VV Vx y z
y z x z x y
x y zx y z
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Del Operator (cont.)Del Operator (cont.)
curl V V
Hence,
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ExampleExample
2 2 33 2 2V x xy z y x z z xz
2 20 3 2 3 4 6V x z y z xy z x xyz
2 2 33 2 2x y z
x y z x y z
Vx y z x y z
V V V xy z x z xz
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ExampleExample
1
y yx xz z
V x y
V VV VV VV x y z
y z x z x y
V z
x
y
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Example (cont.)Example (cont.)
1V z
1 0V z
x
y
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Summary of Curl FormulasSummary of Curl Formulas
1 1z zVV V VV V
V zz z
sin1 1 1 1
sin sinr r
V rV rVV V VV r
r r r r r
y yx xz zV VV VV V
V x y zy z x z x y
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Stokes’s TheoremStokes’s Theorem
n : chosen from “right-hand rule” applied to the surface
S C
V n dS V dr
“The surface integral of circulation per unit area equals the total circulation.”
C
S (open)n
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ProofProofDivide S into rectangular patches that are normal to x, y, or z axes.
i ir
iS
V n dS V n S LHS :
Independently consider the left and right hand sides (LHS and RHS) of Stokes’s theorem:
, ,in x y or z
C
S n S
in
ri
iC
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Proof (cont.)Proof (cont.)
S
C
, ,
i
i
ir
C
i
V n S V dr
n x y z
e.g ,
0
1lim
ii Cs
n V V drS
i ir
iS
V n dS V n S LHS :
1i
ii r C
n V V drS
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Proof (cont.)Proof (cont.)
Hence,
i
i
iri S
i C C
S C
V n S V n ds
V dr V dr
V n ds V dr
(Interior edge integrals cancel)
S
C
C
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ExampleExampleVerify Stokes’s theorem for
V x yA B C
x y
C C
C
C C C
V dr V dx V dy
x dy
I I I
0
0A
C
C
C
I
I
( dy = 0 )
x
= a, z= const
y
CA
CB
C
( x = 0 )
CC
(dz = 0)
V x y
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Example (cont.)Example (cont.)
2 2 21
0
21
2
sin2 2
sin 12
2 2
a
B
y
y a y a yI
a
a
a
B
B
C
I x dy
2 2
0
a
BI a y dy
x
= a
y
CB
A
B
2
4
aI
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Example (cont.)Example (cont.)
Alternative evaluation(use cylindrical coordinates):
2
0
ˆ
B
B
A
B
A
I V dr
V d a d z dz
V a d
cos ,
cos
V V y x x y
x
x a
2
cos cos
cos
V a
a
Now use:
or
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Example (cont.)Example (cont.)
Hence
22 2
0
22
0
22
0
2
cos
1 cos2
2
sin 2
2 4
4
BI a d
a d
a
a
2
4
aI
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Example (cont.)Example (cont.)Now Use Stokes’s Theorem:
C S
I V dr V z ds
211
4S S
I z z dS dS A a 2
4
aI
V x y y yx xz zV VV VV V
V x y zy z x z x y
1V z
ˆ( )n z
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Rotation Property of CurlRotation Property of Curl
(constant)
S (planar)
n
C
0
1limS
C
V n V drS
The component of curl in any direction measures the rotation (circulation) about that direction
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Rotation Property of Curl (cont.)Rotation Property of Curl (cont.)
But
Hence
S C
S
C
V n ds V dr
V n ds V n S
V n S V dr
Stokes’s Th.:
Proof:
Taking the limit: 0
1limS
C
V n V drS
(constant)
S (planar)
n
C
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2 22 22 2
0
yx z
A
y yx xz z
AA AV
x y z
V VV VV V
x y x z y x y z z x z y
Vector IdentityVector Identity
0V
y yx xz zV VV VV V
V x y zy z x z x y
Proof:
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Vector IdentityVector Identity
Visualization:
0V
1
1ˆ i
iS
nV
V V
ii
Ci
V dr
S
face
0
VV
Flux of out of
iCV ˆ in iS
Edge integrals cancel when summed over closed box!
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ExampleExample
Find curl of E:
s0 l0
q
1 2 3
Infinite sheet of charge (side view)
Infinite line charge Point charge
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Example (cont.)Example (cont.)
0
0
ˆ2
sE x
y yx xz zE EE EE E
E x y zy z x z x y
0 0 0 0 0 0
0
E x y z
s0
1
x
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1 1
0
z zEE E EE E
E zz z
l0
2
0
02E
Example (cont.)Example (cont.)
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sin1 1 1 1
sin sin
0
r rE rE rEE E E
E rr r r r r
q
32
04
qE r
r
Example (cont.)Example (cont.)
0E By superposition, the result ,
must be true for any general charge distribution
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Faraday’s Law (Differential Form)Faraday’s Law (Differential Form)
0S C
E n dS E dr
Let S S
n
S
0S
E n dS
Hence
Stokes’s Th.:
Let S 0: 0n E S 0n E
small planar surface
(in statics)
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Faraday’s Law (cont.)Faraday’s Law (cont.)n
S
0
0
0
x E
y E
z E
0E Hence
0n E
ˆ ˆ ˆLet , , :n x y z
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Faraday’s Law (Summary)Faraday’s Law (Summary)
0E
0C
E dr Integral form of Faraday’s law
Differential (point) form of Faraday’s law
Stokes’s theorem
curl definition
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Path IndependencePath Independence
0V Assume
A BC1
C2
2
2
C
I V dr 1
1
C
I V dr
1 2I I
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Path Independence (cont.)Path Independence (cont.)
Proof
2 1
0C C C S
V d r V n dS
2 1 0I I
A B
C
C = C2 - C1
S is any surface that is attached to C.
(proof complete)
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Path Independence (cont.)Path Independence (cont.)
0V
path independence
Stokes’s theorem Definition of curl
0C
V dr
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Summary of ElectrostaticsSummary of Electrostatics
0
0vD
E
D E
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Faraday’s Law: DynamicsFaraday’s Law: Dynamics
0E In statics,
Experimental Law(dynamics):
BE
t
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BE
t
magnetic field Bz (increasing with time)
x
y
electric field E
ˆ 0zBz E
t
(assume that Bz increases with time)
Faraday’s Law: Dynamics (cont.)Faraday’s Law: Dynamics (cont.)
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Faraday’s Law: Integral FormFaraday’s Law: Integral Form
BE
t
Apply Stokes’s theorem:
ˆ
ˆ
S C
S
E n dS E dr
Bn dS
t
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Faraday’s Law (Summary)Faraday’s Law (Summary)
BE
t
ˆC S
BE dr n dS
t Integral form of Faraday’s law
Differential (point) form of Faraday’s law
Stokes’s Theorem
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Faraday’s Law (Experimental Setup)Faraday’s Law (Experimental Setup)
magnetic field B (increasing with time)
x
y+
-V > 0
Note: the voltage drop along the wire is zero
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Faraday’s Law (Experimental Setup)Faraday’s Law (Experimental Setup)
x
y+
-V > 0
Note: the voltage drop along the wire is zero
ˆ
0
C S
z
S
BE dr n dS
t
BdS
t
S
C
ˆ( )n z
0V
B
A C
V E dr E dr
Hence
A
B
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Differential Form of Differential Form of Maxwell’s EquationsMaxwell’s Equations
0
vD
BE
tB
DH J
t
electric Gauss law
magnetic Gauss law
Faraday’s law
Ampere’s law
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Integral Form of Integral Form of Maxwell’s EquationsMaxwell’s Equations
ˆ
ˆ
ˆ 0
ˆ ˆ
v
S V
C S
S
C S S
D n dS dV
dE dr B n dS
dt
B n dS
dH dr J n dS D n dS
dt
electric Gauss law
magnetic Gauss law
Faraday’s law
Ampere’s law